DE362712C - Sword arrangement - Google Patents

Description

Sword arrangement. The main patent is a sword arrangement for sailing ships (Commercial and sports vehicles, model and toy ships) described in the by inclination and suitable choice of the angle of inclination and the distance of the sword from the midships plane the component of the directed perpendicular to the plane of the sword Water resistance the vertical longitudinal plane of the ship in the same or approximately the same height as the wind force hits, for the purpose of canceling out the sailing moment entirely; or to decrease. One embodiment of this sword arrangement was like this taken that two inclined at an angle to the horizontal plane and on cantilevers fortified swords were used.

The present invention now has a further embodiment of the same thought to the object, and indeed the two, swords in theirs Angular position made adjustable so that the intersection between the perpendicular component of the Water resistance and the vertical longitudinal plane of the ship below the point of application: the wind power can be placed while the intersection of the perpendicular to the tea-side sword plane directional component of the water resistance and the vertical longitudinal plane of the Ship can be placed above the point of application of the wind power. Through this the same is achieved with an increase in stability as with adjustment a common point of intersection that coincides with the center of pressure of the wind of the water resistance components. with the longitudinal axis of the ship due to the same Angular position of the swords.

With this arrangement, the swords are now about one to the axis of the ship parallel axis mounted in such a way that it moves under the influence of water resistance., depending on its size and direction, rotate freely around a small angle the progress of an automatic stabilization of the vehicle achieved by wind power itself.

Another improvement is that the swords are parallel be stored displaceably to the longitudinal plane of the ship. This enables the points of attack to move the water resistance in such a way fore and aft that the to the midship plane Angular components of wind power and water resistance even with any longitudinal shifts the center of pressure of the wind are always brought back into line can.

This displaceability of the swords parallel to the longitudinal axis of the ship is expediently achieved with the help of a parallel guide. This brings - then at the same time the further advantage that the swords can be folded up, so if desired, to reduce the width of the vehicle.

Finally, another object of the invention is transfer that for the sword assembly according to the main patent and the present invention established principles on the sliding surfaces of sail planing boats.

The invention is on the drawing in an exemplary embodiment shown. Fig. I shows the embodiment of the swords with automatic adjustability their angular position. Dep. 2 illustrates the arrangement of the swords on a parallel guide and at the same time a possibility of their training in the application on planing boats. Fig. 3 and ¢ show further embodiments of the sliding surfaces of planing boats. In the illustration in Fig. I, the angular position of the two swords S, (tea side) and & (windward side) are chosen to be different from one another that the point of application a of the wind power P in any case! between the intersection points b1 and b, the perpendicular Components of the water resistances W and WZ directed towards the planes of the sword with the vertical longitudinal plane of the ship comes to lie. With a suitable adjustability the angular position of the swords S,: and SZ can, as in the main patent, the Resultant of the point b ,. attacking horizontal component H, of the tea side Water resistance W ,. and the horizontal component H acting at point b2, of the windward water resistance W2 to. exact or approximate coincidence brought with the center of pressure a of the wind and thus canceled the sailing moment or be reduced.

With this arrangement, however, an automatic one is now also in a simple manner To achieve stabilization even if, under certain circumstances, the center of pressure a of the wind does not have a completely constant position, but in certain limits fluctuates. This would create heeling moments that, without automatic stabilization, added by the static stability of the ship Need to become.

The possibility of automatic stabilization can also be seen in Fig. I. With the relationships on which this illustration is based, the angle that the sword S i forms with the horizontal is an angle δ greater than the angle between the sword S i. and the horizontal. If, however, the swords S1 and S2 are mounted around an axis parallel to the ship's axis in such a way that they can rotate through this small angle 8, depending on the direction and magnitude of the water resistance, the vehicle is automatically stabilized by the wind force achieved himself; if the wind force P should move upwards, the ship experiences a tilt to the left. Due to the greater immersion of the left and the smaller of the right sword, the resistance W is greater than Wz and thus also the horizontal component H is greater than H .. The resultant of H and Hy moves upwards, ie in the same direction as P. Should the inclination of the ship become so great that the right sword S2 dips out, HZ would disappear and Hl equals P will. But since the point b ,, of. was determined in advance in such a way that its distance e1 from the center of pressure a is always positive, there is always a right-turning moment left, which erects the ship so far that the right sword S2 dips back in and becomes H, - e,: = HZ # e2 , where e. is the distance of point b., from a.

A similar conclusion is reached if the slope is to the right Is accepted. If the wind comes in from the left, the water resistance changes W, and W, their direction, as a result of which the swords S, and SZ rotate through the angle. Points b and b2 change their position and the ship remains stable, as before. The pressure of the wind is not only harmless for stability, but it even becomes, no matter from which side it invades, to preserve it used by a roughly inclined ship by the wind pressure automatically again is erected.

Under certain circumstances, however, the Enter the center of pressure a of the wind in the direction of the longitudinal axis of the ship, especially when changing the sail area. To even with = such longitudinal shifts of the pressure center point a, the points of application of the water resistance on the swords to move fore and aft in such a way that the intersection points of the midship plane perpendicular components of the water resistance again vertically over or under come to lie the center of pressure a, are the swords S ,. and SZ mounted parallel to the longitudinal axis of the ship with the help of a parallel guide c. The swords can therefore always be adjusted fore and aft in such a way that the The ship is neither eager to lee nor greed when sailing.

This arrangement of the swords on a parallel guide also has nor the advantage that the swords can be folded completely, which is the case with; Mooring or when driving through narrow waters. Sometimes this is desirable. The setting or folding of the swords is done by the ropes d and e.

Since the above arrangement makes it possible for a given Vehicle far beyond the sail area without adding stabilizing weights To increase the previous level, it will also be possible to build such a vehicle to slide on the surface of the water. To make sliding easier, can e.g. B. the front edges g of the swords (Fig-. 2) are slightly increased. Of course but could also very generally for the sword arrangement according to the main patent and the principles established by the present invention apply mutatis mutandis to the training all or some of the planes or wings of planing boats are transferred :. Since it is known that such planing boat wings are at: a certain angle of attack of about 6 ° its greatest efficiency, which is equal to the lift divided by resistance to locomotion, they could be arranged in levels one above the other will. As the speed increases, so much wing emerges from the water until the necessary buoyancy is just retained. Against it would the unnecessary water resistance by submerging the surface is eliminated. One A decrease in the speed and thus the buoyancy in turn causes immersion from the wing, which increases the lift to the required level will. The efficiency therefore always keeps approximately the same value.

Claims (1)

PATENT CLAIMS: i. Sword arrangement for sailing ships according to Patent 3562o9, characterized in that the swords are adjustable in their angular position in such a way that the point of intersection between the. The component of the water resistance directed perpendicular to the luvs, side sword plane and the vertical longitudinal plane of the ship can be placed below the point of application of the wind force, while the point of intersection between the component of the water resistance directed perpendicular to the sword plane on the tea side and the vertical longitudinal plane of the ship above the point of application of the wind force can be laid. a. Sword arrangement according to claim i, characterized in that the swords are freely rotatable about an axis parallel to the longitudinal axis of the ship in such a way that they can swing at a certain angle under the influence of the water resistance .. 3. Sword arrangement according to claims i and z, characterized characterized in that the swords are displaceable parallel to the longitudinal axis of the ship. .4. Sword arrangement according to Claims 1 to 3, characterized in that the swords are mounted on a parallel guide in such a way that they can be folded in.